I am trying to implement a class
Node representing a node in a directed graph, which in particular has a set of successors and predecessors. I would like
Node.predecessors to behave like sets, in particular I want to iterate over their elements, add and remove elements, check containment, and set them from an iterable. However, after
node_1.sucessors.add(node_2) it should be True that
node_1 in node_2.pedecessors.
It seems possible to write a new subclass of
set that implements this magic, but as far as I see an implementation of such a class would be quite cumbersome, because it would have to know about the
Node object it belongs to and if it is a predecessor or successor and would need some special methods for addition and so on, so that
node_1.sucessors.add(node_2) will not call
node_2.predecessors.add(node_1) and thus lead to an infinite loop.
Generating one of the two attributes on the fly
(node for node in all_nodes if self in node.sucessors) should be possible, but then I need to keep track of all Nodes belonging to a graph, which is easy (adding it to a
weakref.WeakSet class attribute in
__init__) if I have only one graph, but using one big set for all nodes leads to large computational effort if I have multiple disjoint graphs, and I do not see how to modify the set of predecessors.
Does anybody have a good solution for this?